Control valve device



May 22, 1945.`

c. s. KELLEY CONTROL VALVE DEVICE Filed Dec. 23, 1943 /3* FUH Release i ATTORNEY Patente'd May 22, 1945 'r OFFICE g CoN'rnoL vALvEDEvroE Cecil S. Kelley, Forest Hills, Pa., assignor toThe V Westinghouse Air Brake Company, WilmerdingPa.,` a corporation of Pennsylvania Application December `23, 1943, serial No, 515,389

7 claims'. (o1. 30s-54) This invention relates to control `valve `devices ofthe self-lapping typev for use in controlling` fluid pressure systems, such for instance, as fluid pressure brake systems for railway vehicles and automotive vehicles, uid pressure airplane control systems'fiuid pressure controlled clutch systems and Iiuid pressure `controlled ship and en- I gine control systems, etc. A I I An object of theiinvention is to provide an improved control valve device of the above mentioned type.

Another objectv of the invention is to provide a control valve device of the above-mentioned type having improved means for maintaining the operatinghandle thereof in any control position to which it is moved, against accidental movement i to any other control position. According to this object a friction means isprovlded which at all times loads the handle sulliciently to vresist any tendency to move accidentally from any control position to which it has been moved.

Another object of the invention is to provide a control valve device of the above-mentioned type having means foremaintaining a chosen predetermined pressure in the control pipe when the operating handle thereof is disposed ina certain control position. According to this object an adjusting means is provided forA loading the regulating mechanism ofthe control valve device to the desired 'degree to provide a chosenn pressure in the control pipe when the operatinghandle thereof is moved to a certain control position;

Other objects 'and advantages will appear in the followingy more detailed description of the invention.

`Fig. 1 iis a vertical sectional view through a control valve device constructed in accordance with the invention; Fig. 2 is a cross sectional view l through the device and Vtaken oni` the line 2 2 on Fig. l;` Fig. 3 is a perspective view of a portion ofthe valve device. i

For description purposes only it will be` assumed that` the improved control valve device is ernployed in a fluid pressure controlled system having a supply or inlet pipe I leading from a uid pressure supply source `(not shown) and a oon-l trol4 pipe 2 leading to a fluid pressure-motor 3 and a fluid pressure motor 4 `which operate in accordance with variations in the pressure of fluid in the vcontrol pipe. In the present'system'it will be assumed that the motors 3 andli are of the usual well known type and that a predetermined increase in pressure in the control pipe 2, such for instance thirteen pounds, will eifect` operation of the fluid pressure motor 3 to close a switchor the like, but that s'uch an increase in pressure willbe insufficient to effect operation of thelluid pressure motor 4. 1

The control valve device comprises a casing having an upper body portion ialower body portion 6; atop cov'er portion 'l and a bottom cover portion 8. As shown, these casingtportions are madeseparate from each other and are vertically arranged in axial alignment,the upper end of the lower body portion 6 and the lower end of the upper body portion 5 being secured together by means of studs (not shown) and nuts Ill.` The topv cover portion l and the bottom cover portion 3 are secured "to the upper end of the upper body portion 5 and the lower`end of` the lower body portion 6 respectively, in any suitable manner, such asthe manner shownin Fig. 1 of the drawmg. .l

A flexible diaphragm I2`is clamped around its edge between the upper and lower body portions 5 and 6,*respectively, and anoppositely arranged axially aligned flexible diaphragm I3 is clamped around its edge between the lower body portion 6 and the bottom cover portion 8. A chamber I 4 is formedbetweenthe diaphragm I3 and bot-` tom cover portion 8, which chamber is in constant open communicationl with the atmosphere through a breather opening provided in an insect excluder i5' screwed into the cover 'portion 8. The adjacent faces of the two diaphragms I2 and I 3 areopen to chambers I6 and I'I respectively, which are in permanent open communication with veach other through a passage I9 provided: in an annular wall 20 extending` inwardly from the lower body portion 6 above the diaphragm I3.v Chamber I6 and thereby chamber I'I `are in constant open communication with the inlet or `supply 'pipe I by way of a passage 2l formed in the casing.

Thewall 2i) has a bore linedwith a wear bushing 22 arranged in axial alignment with the two diaphragms. A` stem 24 extends through this bushingand centrally through the diaphragm I3 intochamber I4; Above `,thev wall 20` the stem 24 is increased in cross-sectional area to provide a shoulder 25, a wear sleeve 26 is mounted `on the lower end portion of thestem with its upper end in engagement with said shoulder. `The sleeve 26 extends'through the bushing 22 in sliding -contact Vtherewith andits" lower end contacts a fol- I lower `28 whichis disposed in chamber I'I in conings in the follower 28 and a follower 29 disposed` at theopposite side of the diaphragm I3. Withthrough a suitable opening Sla, provided in the bottom cover portion 8 to the exterior of the.

casing. The outer end of this stem is screwthreaded to receive an adjusting nut 33'vand a lock nut 34 for a purpose hereinafter described.

The wall 20 supports one., end,` ofia controfl.

spring 35 contained in chamber lli. The-oppo-f site end of this spring bears against an annular spring seat 36 which is slidably'fmountedion stem 24 and urged by said spring into contact with a stop shoulder 31 on said stem. The spring 35i/is` operative to oppose` downward movement' of 'the stem Z'aiid thereby of fdiaphra'gmsi I 2 and.- I3 from the position in whichtheyfareshown inzFig. 1, aswilldoe latendescribed;

The: central portionzo'fs'diaphragm; l Eris-:clamped betweenftwo followers Sand 3.9;'the.followergBy engagingxa; collarrd providedronzstem 2llfwhicl'1A stem .extends througl'isfollowerS; diaphragm l2l and; follower'. 3S; into" as chamber? 42 defined.v by.-A thev upperfaceoff diaphragm: Ila-nel,l af tva-11:43: provided inn the 'uppers body yportioni. v A: nutuM disposedly in` chamber. 42 rh'as screw-threaded: cnn' gagement'. withptl're:v wall ofi; axbore 45- provided initlieaupperendpf.; the: stem .2.4iandiis; tightened against the follower lff or.` clampingtheztwo: followers:A to the-.topposite. facesf off thendiaphragxn l 2y and`l for/thereby'fsecuring. the lupper-fendi ofl stem 24 to said diaphragm.

. '-I'heiuppertbodyfcasing ySis-.providedwith an axial b'oreilinedwvith afsleeve one end.of..which is:y open: to4 the, pressurefchamber. 4121;. above4 the diaphragm i2. Above the chamberl42-isa cham,- ben 5.1' which is-A separated from chamber." 4Z: byl

'.thefwall 4'3, which. chamber; 5l is',I opentolthe the chamber l.

non with the interior f the sleeve-like portion.

55 of the nut t4 and through the ports 5L with The chamber 66 above the sealing ring M is in constant communication with the atmosphere through a port 68.

The plunger 62 has a lower end portion .69 of reduced diameter which extends into chamber 65 and. whichis providedwith. an. axial bore 10 which opens tln'oughiaivalve` seat provided in the portion 69, which seat is' provided for engagement by the lrelease valve 60. The release valve has a iuted stem H extending through this seat and bore'ziirto the lower end of an axialbo're 12 in theplunger. The upper end of bore 'l2 is closed by;a.spring,seatlhcarried [by a nut 'M which has screwfthreade'd'engagement with the upper end of the plunger 62. The'spring seat i3 is providedfwithacentralbore and'cross ports 16 which.connect bore 12 with a counter bore 11 of'enlarged diameter which is in constant open communicatiornwitlruatmospheric-v chamber. 661ml way;l oia:iplurality-fof,l ports wit-'in thefplunger 621.nl

A .coilspring :This disposed inibore; T22-'under lpressure andiaotstat: one endfonf the springseatf' 1 andi; atztlfie.opposite'endsonla spring seat-8B' cara rie/dV at; the end: off thenfluted-x sternv M f off release valve.; 6:9: to.biais-:the:v release-waive 601: to its' open position.

'A coilibiasi-ng spring: 8:! Lencirclestheyportionlof theplunger"` 5:2 extending above thesleeve Eiland is supported at one end on a springaseatgprovidedxatsthef uppervendAA off thefsleevepand the'fop positef: endg; bearsagainst; a collarz '2.- carriedI the nut Ma This vspring isrunder:'relatively` 'light' pressurefoiz biasingrthe plunger B'Zfinxanupward direction: and: out. of: seating contaotf with the:y re#- lease fvalve 1 Disposediin :chamber :isa:- quadrant' which may bef-rotated;abouttthefsleeve Sllcbyi. meansrof' anattached operating: handle uit: Asishownin' Fig. 2 of the drawinglthis quadrant-is-vnotchedfor engagement'. withv` a spring.Y pressedu detentf 85:1 so

that:- three". deniteshand'le positions'may befelt` infullninety.degreeimovementfof said handle forI reasonsehe-reinafter described; n p

p For'. controlling-the operation. 0iA the plunger: 62- andtjl thereby the.V supply. andi release valves 58A and -,G1, respeetivel-yl by 'rotarymovement'A of the operating handle 83' a4 cam mechanism isprovidedl.l This mechanism: comprisesf a; cam-:yoke member BcOnstruCted-and arranged-to operatively;- engages-az cam member 9! which is main?y tainedstationary byfmeans of,l a pin lllwhichfiis 24'l is inf permanent communication i `through one or.l more bores 5.5 with chamber Ivandcontains' a fluid pressure supply valve-58.- This valve.` has afluted-.stem Eli'extnding through anxaxial. bore inthe nut'intothe sleeve-like projection 55. thereof.,y f wherein it cont'actsia fluid pressurerelease. valve-60'.- 'Ihei nut; M'isprovided with azseatfor' engagement bythe-supply valve: 58., and a spring' 6.1! contained inrbore; 45t belowthe nut` mounted in the member and which interlock-,with the upper body casing 5. l

AsbestY shown infFig. 3: of the drawingythe cam.Y member isprovided? with* a` cam iface; Sla, andaucamface 92.-, whichlfaoesvare operatively engagedby-aipair ofspacedmembers 93 andnl,

respectively, whichform; the lower ends-of verfl tically disposed spaced legs 89a and blfof the` yokefnriemberI 891 Thamembere 93.-I and` 94.- are .mounted in suitablespaced` slots,f S5: andv 9G pro'- vid'ed in .an upwardlyvextendinglportion 91 offthe quadra-nti 83a` andV aree rotatable therewith upon' rotary.l movementy ofv the handlef 8.6; The spaced legsfaiand.- ll'bfstraddle thespring 8| and'l atth'e top. ofltheyoke arevjoinetogether hy-4 azbody portion .9S-extending: across the topl of-thef nut 'Uk The bodyy portion. 991.'` is provided: with aLv central bore into whichfan adjusting screw Ylill):` is-threaded. The lower endrofithis screwfengages thesupperfsurface of; the inut i4 tozestablish. con.-

nectionrbetween the yoke memberJ 89y and said plun'gen. A loch-.nutT4 |01: mounted on' screwf Ilm.

is arranged to engage'the topzsurface of thebody portion 99 for securing the screw |00 in `any chosen adjusted position. 1'

For preventing accidental movement `of the operating handle -83 from one control position to another, a friction loading means; |05 is provided. As shown inFig. 2 of the drawing, the friction loading means comprises a shoe |06 slidably mounted `in. a bore provided in a radially outwardly extending boss |01 carried by the upper body portion 5. One sideof the shoe |08 is arranged tonfrictionally engage a semicircular portion |08 'of the quadrant 83 land is maintained in engagement with said'surface by meansof a spring |09, The spring |09 is interposed between the opposite side ofthe shoe |06 and an adjustable spring seat I I 0 which is engaged |by an adjusting screw I I I. A lock nut I I2 mounted on screw III is arranged to engage the `outer surface' of the boss |01 for` securing the screw and thereby the spring 'seat I0 in an adjusted position. i Adjusting` the control valve device for operation `When the control valve device is embodied in a fluid pressure system and the uid pressure source and thereby the chambers I6 and I1 `of the control valve are charged with fluid` under pressure and it is desired to condition the system for use, the lock nut 34 and the adjusting nut 33 are loosened to permit movement of the stem 3| relative to the bottom cover portion 8. The topcover portion 6 is then removed and the operating handle 84 of the control valve device `rotatedfrom the position in which it is shown in the drawing to its control position in which the spring pressed detent 85 engages the quadrant 83 in` the notch ||5. With the handle thus positioned the lock nut I 0| on the adjusting screw |00 is loosened and the `adjusting screw rotated in either a clockwise orV counterclockwise direc- ,tion until some predetermined chosen pressure;

such for instance as thirteen pounds, is obtained in the chambers 42 and 5| and thereby in control pipe 2, the screw serving 4to `eiiect the operation 1,

of thesupply and release valves to provide such pressure `as will be hereinafter fully described. It should here be mentioned `that the usual pressure gage (not shown) located `at the operators station will indicate when this pressure is 4at tained. j V

When the chosen predetermined pressure is attained in the chamber and control pipe the lock nut |0| isrotatedinto engagement with the upper surface of the rbody portion99 of the cam yoke 4 member 89 to lock said adjusting screw in its adjusted Iposition. With the adjusting screw |00 thuslocked in position the top cover portion 1 is assembled and clamped in place'. `The operating handle 84 is then moved to a position intermediate the control position and the full release position; With the operating handle in this position-the nut 33lis rotated into `engagemer'it with the lower wall of the bottom cover portion 8. Continued rotation of the nut 33, due to its screw-threaded connection with vthe stem 3|, will cause downward. movement of the stem 3| and attached stern 24 relative to the end 69 of the plunger 62 causing the spring 35 to be `compressed, diaphragm I2 deflecting downwardly to permit such movement of the stem 24. The down- Ward movement of the stem 24 is continued until the release valve 60 1just moves out of engagement with its seat on the end 69 of the plunger 62.` This can readily be determined by a decrease in the pressure of iluid in the controlpipel 2,-such decrease being registered by the hereinbefore mentioned pressure gage. Upon obtaining the proper `adjustment of the release valve 60 in this position of the operating handle, the lock nut 34 is vrotated to engage thenut 33 to thereby lockthe nut 33 in its adjusted position. With thecon# trol valve device adjusted as just described, thirteen pounds pressure per square inch should be obtained in the control pipe 2 when the operating handle of the control valve device is moved to the control position and zero pressure whe'n the handle is returned to full release positionin which the spring pressed detent 85 enters the notch I|9 in the quadrant. When the handle is moved into a variable pressure control zone be tween the control position, i. e., theposition in which the detent is in the notch ||5,` and a. full pressure position which is determined by the spring pressed detent 85 engaging a shoulder |20 on the quadrant 83, the pressure will be varied between thirteen and fifty pounds in accordance with the position 0f the handle.

Operation With the operating handle 84 and the attached quadrant 83 in their full release position. as shown in Figs. 1 and 2 of the drawing, the spring pressed detent 85 will engage the quadrant 83 in the notch ||9. With the several parts of the control valve device properly adjusted and the quadrant inthe position shown inthe drawing, the spring 8| acts through the medium of the nut 14, adjusting screw |00 and the yoke member to maintain the i members S3 `and 94 of the yoke memberin en- `the position in which it is shown in the drawing.

With the plunger in this position, `the spring 6| `will seat the supply valve 58 and spring 19, acting on the stem 1| of the release valve 58, `will main` tain said release valve in contact withthe end of the supply valve stem 59 and thus unseated from the end of the plunger portion 69. As a result chamber below the plunger is open to the atmosphere by way of the unseated `release valve 60, bore 12 in the plunger B2, central fbore 15 in spring seat 13, cross ports 16, bore r11,'ports` 18 in plunger 62, chamber 66 and passage 68; Since thechamber V5| and connected control pipe 2 are open to chamber 65 by way of passages 52, and the chamber 42 is open to chamber 5| `through thestabilizing choke 54, these chambers and the control pipe will also be open to the atmosphere with theplunger 62 in the position in which it' ist) sure, it is desired to supplyfluid under pressureV to the control pipe 2 to effectoperation ofthe uid pressure motor 3, the operating handle 84 of the control valve device is rotated in a clock-,

Wise direction `from the position in which it is shown in Figs. 1 and 2 of the drawing to laposition in which the spring pressed detent 85 will Movement" engage the quadrant in notch |I5. of the handle in a clockwise direction causes the quadrant 83 and thereby the yoke member, including the members 93and 94 `carried at theend onthe; legsza'mand 89h,- respectively,'.tol move' in the?. same.v direction. Since the mem-bers'. 9,3 and 94rengageztheecamiaces: 9 I a. andV 921,: respectively, thee.'` yokemember 89V is. caused to. move: downswardlyy from:` the position'y in whiclrit is v'shown inLFig. 1 ofqthe drawing. This downward'movc-r lment -of the yoke member 8'9; actingithrough the medium'of the adjustingscrew |00 causes the plunger 62 toinovein the-same directionaga-inst thelightbiasing forceof spring 1S. Thel downwardmovement of therplunger 62 willibe relative tothe releasefvalve 6D -until .such time as the seat forsaid.` valveV on. the portion 69 ofplunger 52 engagesthe valve. With the valve thusse'ate'd; communication between the bore 70 4in fthe' plunger which'is open to. the latmosphere through thecircuithereinbefore traced, and connected chambers.65 5|, `42l and control pipe 2.v The operating handle,v 84-asv itsrotation is continued acts through-the medium of the cam mechanism'lin thei'manner` above described, to move the release valve58with the plunger 62, and the release valve will act through the mediumcf stemf59. to unseat the supply valve from the end of the nut 44 secured to diaphragm I2.

When the esupply valve. 5 8 isthusunseatedi iiuid under pressure-'willilow'from chamberr Nix-past said. valve to chamber andfthencethrough ports152fto chamber 5I from when iti'lows tothe control, pipe- 2 and; the connected fluid i pressure motors31 and 4. Fluid underpressurelsupplied toflchamber 5I also'iiows through thestabilizing choke1'54 to. chamber-'42 above the diaphragm-I2; The-stabilizing choke is provided: toipreventthe pressure in diaphragm chamber 42increasingsubs stantially` ahead, of the'pressure in the-1 control Tliei pressure of fluid thus. suppliedito chamber 4-2y acts;` on: 'diaphragm I2- in, opposition: to the forceofxcontrol spring 3.5,r and when thisspressu're is' increased toa. degree which overcomes the force ofsaid spring, the diaphragm |2=will cieiiectA downwardlyrelative to the supply valvel'l and flnallyxmove the supply'- valve seat` into. engage.- ment therewith. The` pressure in chamber` 42 and thereby the connected chamber 5I and `coi-1- trol pipe-2' isv increased` to a degree determined by the-:extent of such 4downward movementiof the 'plungerl after seating' engagement? with the relaseivalve 60. C

It should vhere-be. understood that ,when-the op'- eratinghandle 84M of the control' valve ydevice:is positioned in the control position,y determined-,by the s-pringrpressed detent 85 engaging the-quadrant; 83; in the notch H5, some. chosen predeter- A mined pressure such for instance thirteen pounds will'be' obtainedin the controlxpi-pefZ. Thisfin.-` crease; in: pressure' of fluid incontroflpipe and acting on piston II'Iin the-iiuid, pressuremotor 3 in opposition to` a spring I I8,- willovercomefthe force of saidl spring and causev-the-piston II`|--t move upwardly to perform some mechanical operation, such for instance as-closing a switch', butrwilllnot: be; suicient `to effect operationiorv the uid pressure motor4. f i

.If it isrdesired to` effect operationpfy the-fluid pressure motor 4the pressure of fluid-in the con;- trol pipe- 2 must, be increased a slight degree abover said predetermined pressureV (thirteen pounds). Toeffect such an increase in: pressure in thecontrol pipe, the handle Bitter-the control valver device is moved in a2 clockwise direc tionfirom. the controlposition to a; position in the variable pressure: control zone, i.y e., between notch I I5andshoulder. |20'.` y'Il'ieghandle 84=act are'zaueo ing throughr thenm'edium': offthez corrrrectectl quadrant B3 and carinmecha-rusrnzwiihl effect further downward movement of .ther plunger&2:arrdathisy movement: ofr' the plunger `will again@ unseatz the supply/valve? 5'8: Withthe suppliffvalveatiiagain unseated. fluid under-pressure :again flows-.1 from chamber I 6:"tofcharn'loersv 65,5 5`I= and -42 which? are connected; to rcontrol'lpipe@ 2'. ofi Huid; in tiie s controls pipe: and 1, in the chambers 6515,I1arrd142fis increased tot a-deigi'eeiy sumcient for d'eiiecting the: diaphragm` I=2-. downwardly against the opposing power' of spring' ilfity to a position; for.' again; seating.y tire-r supply,l valve;i 58; therflow off iiuidi willibe `:out off? to thereby," again limit` the. pressure attained: in said control-opine ine accordance witlrithe:` new/ position" of,l theeoperatingf handle Min the variablefpressure'zconrtrol zone. 1 i

It' willibesevidentl that the-pressure mathe-cone troli pipe 2 may! be: furtlierr increased by moving'. the; operating yhandle -84ifarthen inraclockwise di-zrection in the Variable pressure control zone; from the control. position iniwhicliv thespring pressed detent 'engages'the quadrant'in tlie notch I I5?.r If: desired# al` maximumzdegree :off pressure can'v belattainedin said control pipeeand cham; bers lby movement of' the?. operatingih'andle ton a position. iniV whichr thee spring". pressed'.y detenty 85 engages'f a. stop:i I2ll-r carrie'di byy the@ quadrant:-

It will also-be evident thatthe'pressure.offfluid supplied to the-control pipe' 2tactsironronezface of a. piston |25L in' uidtpressurer4 motor' 4 ini opposiiV tionxto a',- spring I 26: andztifiat' when. the pressure in ,the control pipev is' increased above-f said:L prer determined? degree:` it* will; overcome: the fx'arcel of said spring; andi causea the: piston to# movetupwardly.` Upward:` movement.r of' the pistoxrx|25 may boempl'oyed"r topper-ate means to perform some desiredoperation; i

It-.will .be notedtha the ffriction'loadingi means |05V opposesI movement'l of; thee quadrant:Y 83'; and' thereby, the operatingv handle 84but theftotal.

opposition tot' movement will. be: negligible and. may; be overcome' by yafzmanual pressure of' around hva-pounds;l However, thisforce'- acting topp:- pose movement@ of-` the quadrant will "be'rsufcient to -preven't accidental movement of= the--handlewso that the handlefwill` remain: stationary in any position within therv variable# pressuref zone'. to which itfmay havebeen movedr bys' the operator;

If, after the pressure in the control piped-:hasl been'increased sufficiently toifeffect movement? of the piston |25 in` the iiuidi pressuremotor 41 inonedirection-and it-is nowl-'desiredtoeiectimovee ment of this piston! inythezopposite direction; the operating handle 84 l-ofthe: control valve"r de; vice isgraduallymoved'ffroin' its position inthe variable pressure zone in ai counterclockwise*y direction.- toward the said control positioni, Each successivey stepv of` the' operating handler inY a counterclockwise direction` causes? the` connected quadrant 8-3V and l. cam' yoke-- 88 to l moves in: 'the wardly, ,theiorcef-exerted onlthe plunger nut 14;

throughft'he mediumfof' theradjustingi; screwy |00; is gradually. reduced andV plunger -62-/Will ber-al,-

lowed'to mover-upwardly under thefactioniof thev springfll.` Witnthediaphragml I2 in afbalanced conditionby.-thepressure of uid in chamber 42.

When, thev pressure and. the opposing pressure of spring 35, this upward movement of the plunger 62 will be relative to the release valve 60 since this valve will trolpipe 2 and chamber 42 above the diaphragm l2 to the atmosphere through the circuit hereinbefore traced. The pressure of fluid in diaphragm chamber 42 acting on diaphragm |2 and opposing that of spring 35 will therefore :be reduced and said spring will accordingly deflect thediaphragm 2 upwardly in accordance with the-degree of such reduction. As the diaphragm l2 is thus moved upwardly, the supply valve 58 and release valve 60 will be moved therewith by spring 6| in the direction of the reduced portion 69 of the plunger 62.

AS the handle is being moved in a counterclockwise direction, the pressure of fluid in dia-` phragm chamber 42 and control pipe 2 will continue to reduce, and when the handle is stopped in the variable pressure zone, the release valve 60 is moved into engagement with its seat. This seating of the release valve 6B will then prevent further flow of fluid under pressure from chambers 65, and 42 and thereby from the control pipe 2, `thus limiting the pressure in said pipe and `be maintained in contact with the supply valve chamber to a degree determined by the position of the regulating handle 84 in the variable pressure control zone.

As the pressure of fluid in the control pipe 2 decreases in the manner above described, the

force exerted on the piston ||6 in the uid pres@ sure motor 4,` tending to move said piston upwardly, is reduced. As a result of the reduction in pressure in the control pipe, the force exerted by the spring |26I on the piston |25 exceeds the opposing4 force of the fluid in the control pipe acting on the piston so that the piston is moved e downwardly until brought to a stop by the opposing pressure of the fluid, thus eifecting the desired operation `of the fluid pressure motor 4 without effecting `operation of the iluidpressure motor 3..

1f it is desired to effect further downward movement of the piston in the fluid pressure motor 4` without effecting operation of the fluid pressure motor 3', the operating handle 84 of the control valve device is rotated further in a counter-clockwise direction toward the control position for again unseating the release valve 60. A further release of iiuid under pressure will then occur from the control pipe and associated chambers andthe diaphragm |2 will again move upwardly for seating the release valve 60 to limit such reduction when the pressure in said pipebecomes reduced to a degree determined by the new position of the operatinghandle. As a result of the reduction in pressure in the control pipe, the spring `|25 in the fluid pressure motor 4 acts to effect further downward movement of the piston |25, l

It will thus be seen that downward movement of the 4piston |25 in the fluid pressure motor 4 willresult from a reduction in pressure in the control pipe 2 and that the pressure in the control pipe may be reduced in as manysteps or increments as desired the degree of each step of reduction depending upon the extent of rotary movement of the operating handle toward its controlposition.

|26 in the fluid pressuremotor 4 to effect move` ment of the piston |25 to the position in which it is shown in the drawing but will be insufficient to permit the spring I8 in the lluid pressure motor 3 to effect operation of the piston against the opposing pressure of fluid in the control pipe 2.`

`In the event that it is desired to effect operation of the piston |1 in the `fluid pressure motor 3 from its upper position back to the position in which it is `shown in the drawing, the operating handle 84 of the `control valveA device is returned to its full release positionto eiect a com-plete release of fluid under `pressure from the control pipe 2 and associated chambers, thus permitting the spring I8 in the `lluid pressure motor 3, acting in opposition to control pipe pressure, to move the piston ||1 to the position shown.

It will be understood from the foregoing description in connection with adjusting the device for operation that when the operating handle of the control valve device is subsequently returned to full release position from the control position or from any position within the variable pressure control zone that a continuous and complete release of fluid under pressure from the control pipe 2 and the associated chambers ,65, 5|and 42 will `occur and that the spring Y`|9 will `maintain the l. In a control valve device, in combination, a

chamber a pair of` coaxially aligned Valves ar ranged to seat in the same direction and movable in unison, `one of said valves being arranged to control a communication` through which fluid under pressure may be supplied to said chamber and the other valve being `arranged to control a communication through which `fluid under pressure may be released from said chamber, a plunger capable of movement relative to said other valve and arranged to cooperate therewith to close the communication controlled thereby and then being operable to actuate said one Valve to open the communication controlled thereby, astationary cam member having a pair of cam faces, a yoke member having spaced members each` engaging one of said cam faces, said yoke member straddling said plunger and operative to elfect movement, of the plunger, and rotatable means operable to control the operation of said yoke member.

2. In a control valve device, in combination,a chamber a pair of coaxially alignedvalves arranged to seat in the same in unison,` one of said valves being `arranged to` control a communication `through which fluid under pressure may be suppliedto said chamberz and the othervalve being arranged to control a communication throughwhich fluid under pressure may be released from said chamber, a plunge` er capable of movement relative'to said other (valve and arranged to cooperate therewith to close the communication .controlled thereby and then i `a yoke member having spaced legs each engaging direction and movable 

